Abstract Layered titanates (LTs) offer exceptional structural and chemical tunability, enabling precise modulation of their electronic states and catalytic properties. However, systematic studies on the range of cations that can serve as in... Read More
Abstract Multielement nanostructures promise unusual properties but are constrained by crystalline frameworks limiting incorporable cations, and prevailing syntheses rely on harsh conditions restricting practicality. Here we introduce a CO2... Read More
UNIST is featured in a branded content article published on Nature, in collaboration with Springer Nature, highlighting its research strengths in green hydrogen, AI-driven energy modeling, and industry-based innovation. Titled “How AI... Read More
Abstract The demand for low contact resistance in two-dimensional (2D) nanoelectronics has positioned semimetals as ideal contact materials, owing to their ability to minimize the formation of metal-induced gap states (MIGS). While the cont... Read More
Nine faculty members from UNIST have been named to the prestigious Highly Cited Researchers (HCR) 2025 list, compiled by Clarivate Analytics—an increase of two from 2024—positioning UNIST as South Korea’s second-highest-ranked institu... Read More
Abstract Amorphous oxide semiconductor-based thin-film transistors (oxide TFTs) were first demonstrated in 2004. These devices offer numerous advantages, including low-temperature processing, high carrier mobility, and ultralow off-current.... Read More
UNIST has announced plans to establish a pioneering joint research center focused on integrating artificial intelligence (AI) within the marine and fisheries sectors. On September 15, the Research Planning Team at UNIST held a signing cerem... Read More
Abstract Atomic layer modulation (ALM) presents a novel approach for controlling the stoichiometry of platinum-ruthenium (PtRu) alloys rather than a tedious atomic layer deposition (ALD) supercycling multielement ALD process. This method se... Read More
UNIST is pleased to announce the successful participation of its Graduate School of Semiconductor Materials and Devices Engineering students in the ‘2025 Future Chips Academy: The Netherlands-Korea Joint Education Program on Cutting-E... Read More
Abstract Broadband and ultrathin electromagnetic interference (EMI)-shielding materials are crucial for efficient high-frequency data transmission in emerging technologies. MXenes are renowned for their outstanding electrical conductivity a... Read More
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